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1 BIOFUELS - AT WHAT COST? Government support for ethanol and biodiesel in Switzerland: 2008 Update October 2008 Prepared by : Ronald Steenblik, Christopher Beaton and Juan Simón Prepared for : The Global Subsidies Initiative (GSI) The International Institute for Sustainable Development (IISD)

2 Biofuels At What Cost? Government Support for Ethanol and Biodiesel in Switzerland: 2008 Update October 2008 Prepared by: Ronald Steenblik, Christopher Beaton and Juan Simón For the Global Subsidies Initiative (GSI) of the International Institute for Sustainable Development (IISD) Geneva, Switzerland i

3 2008, International Institute for Sustainable Development The International Institute for Sustainable Development (IISD) contributes to sustainable development by advancing policy recommendations on international trade and investment, economic policy, climate change and energy, measurement and assessment, and sustainable natural resources management. Through the Internet, we report on international negotiations and share knowledge gained through collaborative projects with global partners, resulting in more rigorous research, capacity building in developing countries and better dialogue between North and South. IISD s vision is better living for all sustainably. Its mission is to champion innovation, enabling societies to live sustainably. IISD is registered as a charitable organization in Canada and has 501(c)(3) status in the United States. IISD receives core operating support from the Government of Canada, provided through the Canadian International Development Agency (CIDA), the International Development Research Centre (IDRC) and Environment Canada; and from the Province of Manitoba. The Institute receives project funding from numerous governments inside and outside Canada, United Nations agencies, foundations and the private sector. International Institute for Sustainable Development Head Office 161 Portage Avenue East, 6th Floor Winnipeg, Manitoba Canada R3B 0Y4 Tel: +1 (204) Fax: +1 (204) Web site: International Institute for Sustainable Development Global Subsidies Initiative International Environment House 2 9 chemin de Balexert 1219 Châtelaine Geneva, Switzerland Tel: Fax: Web site: Biofuels At What Cost? Government Support for Ethanol and Biodiesel in Switzerland: 2008 Update October 2008 By Ronald Steenblik, Christopher Beaton and Juan Simón ISBN ii

4 Acknowledgments An initial draft of this report was prepared by Ronald Steenblik and Juan Simón, when they were employed by the Global Subsidies Initiative as Director of Research and Assistant Researcher, respectively. The report was updated by Christopher Beaton (a summer intern at the GSI) in mid-2008, with the assistance of Tara Laan, following changes to Swiss biofuelrelated legislation, production and subsidy levels. The GSI wishes to thank all authors for their meticulous approach to developing the report. The project has benefited greatly from the input of those individuals who served as peer reviewers: Lukas Gutzwiller (Federal Office of Energy, Switzerland) Nicole Locher (Federal Office for Agriculture, Switzerland) Ralph Sims (Renewable Energy Unit, International Energy Agency) Reto Stroh (Customs Directorate, Eidgenössisches Finanzdepartement EFD, Switzerland) Hans-Ulrich Tagmann (Federal Agriculture Ministry, Switzerland) Vaclav Vojtech (Trade and Agriculture Directorate, OECD) Martin Von Lampe (Trade and Agriculture Directorate, OECD) Rainer Zah (EMPA, Switzerland) Their comments and insights helped to greatly improve the final version. However, the report should not be interpreted as necessarily representing their views. And, as is always the case, any remaining errors or inaccuracies remain the responsibility of the authors. This effort could not have been undertaken without the generous support for the GSI s work provided by the governments of Denmark, the Netherlands, New Zealand and Sweden, as well as the William and Flora Hewlett Foundation. The views expressed in this study do not necessarily reflect those of the GSI s funders, nor should they be attributed to them. iii

5 Table of contents Acknowledgments iii Abbreviations and acronyms vii Executive Summary 1 1. Introduction Objectives and outline of the study Framework of the analysis 7 2 Overview of the liquid biofuels industry in Switzerland Historical evolution of policies supporting liquid biofuels Production and capacity Biodiesel and SVO Ethanol Technical norms 18 3 Current policies supporting biodiesel and ethanol Biodiesel and Straight Vegetable Oil Output-linked support Support for biodiesel production factors and intermediate inputs Ethanol Output-linked support Support to production factors and intermediate inputs 32 4 Recent developments in Swiss biofuel policy and the potential for expanding domestic production Amendments to the Mineral Oil Tax Law Alcosuisse s Etha+ project Switzerland s longer-term potential for biofuel production 41 5 Aggregate Support for Biodiesel and Ethanol Total support estimates Subsidy intensity Support per unit of fossil-fuel-equivalent displaced Subsidy per tonne of CO 2 -equivalent displaced 50 6 Commentary and recommendations 53 References 56 Annexes 60 Annex 1: Tables and Statistics 60 About the authors 64 About the Global Subsidies Initiative 1 iv

6 List of Tables and Figures Figures Figure 1.1 Subsidies provided at different points in the biofuel supply chain 9 Figure 2.1 Locations of petrol stations selling E5 and E85 in Switzerland as of Figure 4.1 Trends in consumer nominal protection coefficient values for major crops in Switzerland 42 Tables Table 2.1 Annual biodiesel production at Eco Energy s plant at Etoy 12 Table 2.2 Principal biodiesel-producing plants in Switzerland as of mid Table 2.3 AGROLA s schedule of existing and planned petrol stations in Switzerland with pumps to dispense E85, as of 24 December Table 3.1 Total tax rates on mineral fuels in Switzerland, as of May Table 3.2 Estimates of the value of the exemption of the mineral oil tax granted to biodiesel and SVO ( 000 CHF) 21 Table 3.3 Area payments and rape production (including use as renewable raw material) 25 Table 3.4 Contributions to oilseeds transformation in Table 3.5 Switzerland s applied tariffs on ethanol 30 Table 4.1 Value of tax exemption and claimed CO 2 reduction through substitution of biofuels in Switzerland, according to the draft Mineral Oil Tax Law amendment of May Table 4.2 Forecast average quantities of raw materials consumed and ethanol produced at Alcosuisse s planned multi-feedstock ethanol facility 40 Table 4.3 Yields and prices of raw materials for ethanol production in Switzerland 43 Table 5.1 Total Support Estimate for biodiesel in Switzerland, Table 5.2 Total Support Estimate for ethanol in Switzerland, Table 5.3 Approximate marginal rates of subsidization for biodiesel and SVO in 2008 (CHF per litre) 46 Table 5.4 Marginal support intensity values for ethanol and biodiesel, Table 5.5 Marginal support for ethanol and biodiesel per unit of fossil fuel displaced, Table 5.6 Marginal support per tonne of CO 2 -equivalent avoided, v

10 Executive Summary In recent years, various governments around the world have promoted industrial-scale production and use of liquid biofuels fuel-grade ethanol and biodiesel 1 and backed that commitment with financial support. This report, one of a series of country studies undertaken by or for the Global Subsidies Initiative (GSI) of the International Institute for Sustainable Development (IISD), examines the types and magnitude of support to biofuels in Switzerland. By world standards, Switzerland is a minor producer and consumer of liquid biofuels ethanol, biodiesel and straight vegetable oil (SVO) especially compared with its neighbours, Germany, France, Italy and Austria. Although total consumption of biodiesel and SVO more than quadrupled between 2003 and 2007, to almost 12 million litres (ML), this volume accounted for less than half of one per cent of total domestic consumption of petroleum diesel (see Figure). 2 Production and consumption of ethanol for fuel accounted for an even smaller share around 3 ML in 2007 (Annex Table 1), compared with ML of gasoline consumed in the same year. 3 As of July 2008 there were 21 plants in Switzerland producing liquid biofuels, and nine producing gas from biomass (biogas) for transportation purposes. Biodiesel, mainly rape methyl ester (RME), was being produced in nine plants of relatively small capacity, one of which has been in production since 1996, and the others from 2003 or later. Within the last year, four new companies have announced their intention to enter the biodiesel market. Five plants produce SVO 4, and six plants produce a similar fuel from recycled plant oil. Only one facility currently produces ethanol in Switzerland, although its owners have announced plans to expand their operations by Biofuels refers to liquid renewable fuels such as ethanol (an alcohol fermented from plant materials) and biodiesel (fuels made from vegetable oils and animal fats) that can substitute for petroleum-based fuels in road transport. 2 In 2007, the Swiss Federal Customs Administration calculated Swiss consumption of petroleum diesel to be 2 326ML per year. Quantités imposées ownload=m3wbpgdb/8ull6du36wenojq1nttjaxznqwfvp7yhmfhnapmmc7zi6rznqckkin1fxqcbk bxrz6lhudzz8mmps2gpkfo&typ=.pdf 3 For petroleum consumption, see Swiss Federal Customs Administration, Quantités imposées This purified vegetable oil is also used directly as fuel in some engines, which require a second component for heating the oil (given its high viscosity) and some additives in winter. It benefits from many of the same government support measures available for biodiesel. 5 Data source: Biofuels Schweiz. 1

11 Biofuels consumption in Switzerland (millions of litres) Millions of litres Data source: EZV Eidgenössische Zollverwaltung [Federal Customs Administration], Government policies, among other factors (notably prices for petroleum fuels), have played an important role in determining the scale and evolution of the industry. The largest support element is the exemption of biofuels from the mineral oil tax, Switzerland s main volumetric excise tax on fuels. Additional support has been provided to producers of biodiesel from virgin vegetable oils to help bridge the cost differential between imported and domestically produced feedstocks. Little support of Swiss biofuels production is provided by border protection per se: biodiesel can be imported duty-free, and although there is a CHF per litre import tariff on denatured ethanol (CHF 0.28 per litre for undenatured ethanol), most of Switzerland s trading partners would not be subject to it. However, until a new law came into effect on 1 July 2008, imports were disadvantaged because they were subjected to a mineral oil tax, while biofuels produced at recognized (Swiss) pilot and demonstration plants were exempted. Moreover, only the Swiss Confederation through the Swiss Alcohol Board (SAB) and its for-profit company, Alcosuisse was entitled to import products containing more than 80 percent alcohol by volume. Through the end of 2007, no ethanol had been imported to Switzerland for use as an automotive fuel. 6 In Switzerland, as elsewhere, biofuels have attracted particularly high levels of assistance because of their several perceived benefits: providing new income opportunities for 6 Switzerland has import some ethyl alcohol, mainly undenatured, in the past 44.3 million litres in 2006, for example but the imported alcohol has been used for industrial or medical purposes, and for making alcoholic beverages, not for fuel. Source: F.O. Licht s World Ethanol & Biofuels Report, 5, no. 13, (2007). 2

12 agricultural and forest-product producers; improving urban air quality, and greenhouse gas emissions; and, in the future, providing economic opportunities for developing countries. But the ability of biofuels to deliver against these objectives may be questioned. Biofuels can have unintended effects that undermine the fiscal and environmental goals they are purported to support. By scrutinising the extent of government support for biofuels, this study highlights the opportunity cost of financial assistance to biofuel industries over other options available to policy makers. It also questions whether such levels of support are justified in the context of long-term viability of the industry in the absence of subsidies. In 2007, the Swiss federal government spent (or exempted from taxes) around CHF 12 million supporting the production and consumption of biofuels (see Table). This number could grow to more than one hundred million Swiss francs a year in the coming decade if currently planned expansion of the industry comes to pass. Most of the support to date has benefitted biodiesel. Government support for ethanol and biodiesel in Switzerland, Metric Units Ethanol Biodiesel and SVO Consumption Million litres Total support CHF million Marginal support per litre 1 CHF/litre 0.73 Made from waste cooking oil: 0.72 Made from Swiss oilseeds: 2.14 Marginal support per gigajoule 1 CHF/GJ 35 Made from waste cooking oil: 22 Made from Swiss oilseeds: 65 Support per litre of petrol or diesel equivalent 1,2 CHF/litre equivalent Made from waste cooking oil: 0.80 Made from Swiss oilseeds: The range in the values for biodiesel and SVO represent the range between biodiesel and SVO made from waste cooking oils and biodiesel and SVO made from Swiss-grown oilseeds. 2. Adjusted for the lower heat contents of these fuels compared with their corresponding petroleum fuels. Source: main report. Although the marginal rates of support per litre are roughly similar for ethanol and biodiesel made from imported oilseeds or from domestic or imported recycled oils, support per gigajoule (GJ), a standard unit of energy, is higher for ethanol than for most forms of biodiesel, except biodiesel made from domestically grown oilseeds, which is twice as high (see table). In 2008, Switzerland s biofuel policies underwent an important transformation. In May 2006, the Government issued draft legislation to amend its Mineral Oil Tax Law, which was finalised on 30 January 2008 and came into force on 1 July A major change was to extend access to a reduced rate of mineral oil tax to imported biofuels. However, importers must prove a set of qualifying criteria in order to be granted the exemption: proof that the fuels have a positive global ecological effect (calculated on a life-cycle basis) and that production conditions have been socially acceptable. In order to keep total revenues raused through the mineral oil tax constant, the government also increased its tax rate on gasoline. 3

13 At the same time, the government removed Alcosuisse s monopoly on importing products containing more than 80 per cent alcohol (Federal Department of Agriculture, 2008). An exemption was granted to allow other blenders to import fuel ethanol and mix it with gasoline. The regulations setting out the implementation for the new law, particularly the qualifying criteria for the tax exemption were as of October 2008 still under development by the Department of Environment, Transport, Energy and Communications (DETEC). A public consultation phase is expected to be completed in November In the mean time, imported biofuels can benefit from the tax exemption. However, if an importer s biofuels were later found to be ineligible under the new life-cycle assessment criteria, it would have to pay the tax. Few importers are likely to take this risk while the criteria on which the biofuels will be assessed are still being drafted. Notably, in contrast with many other national governments, the Swiss federal government has so far wisely, in the GSI s view resisted calls from the industry to mandate particular volumes or blending ratios in the nation s transport fuels. Although it is unclear what effect the new arrangements will have on Swiss biofuel production, it is generally expected that the increased competition from imports will put pressure on domestic producers. For this reason, the government granted Swiss pilot and demonstration plants an exemption period until 2011, during which they will not be required to prove that they meet the qualifying criteria (i.e. they will continue to receive the tax exemption regardless of life-cycle assessment results). The idea is to give these producers time to restructure their production and find new feedstock suppliers, if necessary. 7 Biofuels can have some greenhouse gas and local pollution benefits. But the cost in Switzerland of obtaining a unit of CO 2 -equivalent reduction through subsidies to biofuels is very high, especially for biofuels produced from virgin materials. Buying CO 2 reductions by subsidizing Swiss rapeseed biodiesel production is estimated to cost at least CHF ( 940) per tonne of CO 2 -equivalent avoided (see table, next page). For the same cost, the government could purchase roughly 30 tonnes of CO 2 -equivalent offsets on the European Climate Exchange. Ethanol derived from wood cellulose has a better life-cycle emissions profile than biodiesel, with a subsidy cost in Switzerland of between CHF 460 ( 290) and CHF 550 ( 340) per tonne of CO 2 -equivalent avoided. For the same cost, the government could purchase around 10 tonnes of CO 2 -equivalent offsets. The cost-effectiveness of biodiesel made from recycled waste oil is better still, on the order of CHF 300 (less than 200) per tonne of CO 2 -equivalent avoided. Nevertheless, even in this best-case scenario, the government could purchase six times more CO 2 -equivalent offsets in the European Climate Exchange. If carbon emission reductions are the primary policy objective, then subsidizing biofuel at the current levels is not cost-effective. 7 Mineral oil taxation law (Limpmin), Ordinance sur l mposition de huiles minérales (Oimpmin), and the Office féderale de l environnement (PFEV), 4

14 Support per tonne of CO 2 -equivalent avoided through the use of for ethanol and biodiesel in Switzerland, 2008 Metric Units Ethanol Biodiesel from used cooking oil Avoided non-renewable energy: support per litre of petrol- or dieselequivalent displaced Assistance per tonne of CO 2 -equivalent emission reduced NB: Market price of a CO 2 -equivalent offset 1 CHF per litre equivalent Biodiesel from Swiss-grown oilseeds CHF per tonne CO 2 -eq CHF per tonne CO 2 -eq 48 ( 30) 1. Average of the highest value of ECX CFI Futures Contracts attained on the European Climate Exchange for December 2008 and December 2009 settlements in 2008 (through mid-october 2008), rounded to the nearest euro. Converted to Swiss francs at an exchange rate of CHF 1.6 per euro. Source: main report. The overall rationale for Switzerland s elaborate arrangements for certifying biofuel sustainability warrants careful examination by Swiss policy-makers. While it is understandable that the government, reflecting consumer concerns, should desire to assure that any biofuels used in the country satisfy minimum environmental and social criteria, any system will have to be very carefully designed if it is to be consistent with WTO rules. But the larger point is that, without the fuel-tax breaks that enable biofuels to compete with petroleum fuels, the volume of biofuels consumed in Switzerland (certainly of biodiesel) would probably be much less, and there might be little need for creating and administrating a sustainability standard. Compared with the situation even two years ago, there is today much more information available to the public on the amount and types of biofuels used, the policies supporting them, and their environmental effects. In June 2008, the Government published a document that explained in great detail its position in respect of ethanol. Extending the analysis to biodiesel, and publishing regular updates, would facilitate a more informed discussion. The study concludes with several recommendations for the federal government. In the GSI s opinion, it should: Continue to resist calls for instituting blending mandates for biofuels, at least without first undertaking a thorough examination of the costs and benefits. Avoid providing new specific subsidies to the industry, and develop a plan for reducing or phasing-out the exemptions from the mineral oil tax granted to biofuels. Continue to stress technologically neutral policies for reducing reliance on petroleum in the transport sector and curbing emissions of greenhouse gases. Improve the information available on transfers provided to the biofuels industry and the effects of such assistance. 5

15 Establish an on-going evaluation process to assess: the cost-effectiveness of support policies at all levels of government in attaining the declared objectives behind biofuels policy, and the long-term economic viability and international competitiveness of a Swiss biofuels industry, in the absence of assistance. 6

16 1. Introduction This report examines government support for biodiesel, SVO and ethanol in Switzerland. It forms part of a multi-country effort by the Global Subsidies Initiative (GSI) to characterize and quantify subsidies to biofuels production, distribution and consumption, as well as the subsidies to producers of key factor inputs. Such information, the GSI believes, is vital to understanding the cost-effectiveness of different policy options. Given the growing share of crops that are being diverted to energy production, the amount and form of support provided to biofuels is also relevant to issues relating to agriculture, such as trade and food security. 1.1 Objectives and outline of the study The report follows a standardized outline common to all the reports in this series. After a brief explanation of the framework used in the GSI s studies, Chapter 2 surveys the domestic biofuel industry and the history of the country s biofuel policies. Chapter 3 explains the different elements of support for biodiesel, SVO and ethanol at the federal and (to the extent that information could be obtained) cantonal levels. The discussion is informed by a standard economic classification scheme, which proceeds from the most economically distorting (production-linked), to the least-distorting (expenditure on research, development and innovation). Chapter 4 discusses the latest changes to federal policies affecting biofuels and projects being planned in response to those changes. New proposals relating to fuel ethanol, such as Alcosuisse s Etha+ programme, and the exemption of imports from the mineral oil tax, presume that a significant share of ethanol will be imported in the future. To put these plans into perspective, the chapter concludes with some observations on the potential for expanding biofuel production in Switzerland. In Chapter 5 the authors present summary estimates of total support to biofuels in Switzerland. In addition to providing subsidy costs in Swiss francs (CHF) and francs per litre, the chapter estimates the amount of support costs in terms of several indicators relevant to the question of cost-effectiveness. These include: subsidy per litre of gasoline or diesel equivalent; subsidy per litre of fossil fuel avoided; and subsidy per tonne of CO 2 - equivalent avoided. Finally, Chapter 6 offers some concluding observations and recommendations. These recommendations should be seen as tentative, given that the latest revisions to the Mineral Oil Tax Law have only just come into force. 1.2 Framework of the analysis Figure 1.1 illustrates the framework used in the report to discuss subsidies provided at different points in the supply chain for biofuels, from production of feedstock crops to final consumers. Defining a baseline requires deciding how many attributes to look at and 7

17 determining what programmes are too broadly cast to consider in an analysis of one particular industrial sector. This analysis focuses on subsidies that affect production attributes that are significant to the cost structure of biofuels, including subsidies to producers of intermediate inputs to production, namely crop farmers. More remote subsidies, such as to particular modes of transport used to ship biofuels or their feedstocks, were beyond the boundaries of this analysis. For the purpose of this report, consumption occurs downstream of the point at which the biofuel leaves the manufacturing plant. Support for production and consumption is provided at many points in the supply chain. At the beginning of the supply chain are subsidies to what economists call intermediate inputs goods and services consumed in the production process. The largest of these are subsidies to producers of feedstock crops used to make biofuels, particularly oilseeds for biodiesel. In Switzerland, these subsidies do not depress the prices of domestically produced oilseeds below those of imported oilseeds. However, to the extent that production of the feedstock crops creates a demand for the crop and thereby for subsidies, the proportional share of the total subsidies to those crops used in the production of biofuels (excluding market price support for the crops) can be considered one element of the gross costs to government of promoting biofuels. (The net cost would take into account any increased taxes paid by farmers as a result of increasing their taxable incomes.) Subsidies to intermediate inputs may be complemented by subsidies to value-adding factors capital goods; labour employed directly in the production process; and land for plant construction. In the case of biodiesel, those few subsidies that have supported valueadding factors in Switzerland have been linked to productive capital. These have in the past taken the form of grants, or reduced-cost credit, for the building of biodiesel manufacturing plants. These types of subsidies lower both the fixed costs and the investor risks of new plants, improving the return on investment. Further down the chain are subsidies directly linked to output. Output-linked support includes exemptions from the mineral oil tax, which enables biodiesel, ethanol and SVO to be sold at retail prices that are roughly at parity with their taxed fossil-fuel counterparts. Government policies that discriminate between imports and domestic supplies are also relevant. Most imports, or potential imports, of biofuels into Switzerland enjoy low applied tariffs. However, up until 2008, they were not exempt from the mineral oil tax, which impeded the ability of foreign producers to capture domestic market share. Following legislated changes in 2008, imports will also be eligible for tax exemptions if they can demonstrate sustainable origins. Swiss pilot and demonstrations facilities are not required to meet the sustainability criteria until Subsidies for consumption are minor in Switzerland, and have been provided mainly through government assistance to municipalities that run vehicles (particularly buses) on biofuels. 8

19 2 Overview of the liquid biofuels industry in Switzerland 2.1 Historical evolution of policies supporting liquid biofuels Between 1996 and 1998, the Swiss government enacted three laws that were instrumental in shaping the country s future biofuel industry. The first law gave an exemption from the mineral oil tax to fuels produced from renewable raw materials in pilot and demonstration plants located in Switzerland. The exemption was available only for fuel manufactured at plants producing no more than 5 million litres (ML) of diesel equivalent a year, with an upper limit from all plants of 20 ML per year. None of the plants that have been built since the law went into effect have surpassed the 5 ML per year threshold, 8 and without the tax exemption, no domestically produced biofuels would be able to compete with their fossil-based equivalents, diesel and gasoline, unless the price of crude petroleum were to rise significantly. Designation as a pilot or demonstration plant is also time-limited, though to date no plant has lost that designation. The second law, actually an amendment to an existing law, was enacted by the Swiss Parliament in Prior to that point, production of ethanol from agricultural raw materials (potatoes, molasses, sugar beets, etc.), for whatever purpose, was prohibited in the interest of reducing the incidence of alcoholism. The only exception was some wood-based ethyl alcohol, because cellulose, its raw material, was not listed among prohibited feedstocks. This policy change thus removed a major impediment to domestic production of ethanol from crops. The third important policy change involved a reduction in area payments to farmers growing rapeseed and other oilseeds for non-food, non-feed uses (or, in Swiss policy terms, technical uses ). For some time prior to 1998, these payments had been set at CHF per hectare. In that year, however, the Swiss Parliament passed a sweeping new Law on Agriculture, 9 which decoupled price from income policy in respect of oilseeds. Prices for oilseeds fell 10 and the differential between oilseeds used for food or fuel effectively disappeared. Growers of biodiesel feedstock oilseeds saw their area payments cut in half, to CHF per hectare, the same as received by producers of oilseeds for food uses The highest production figures since the law came into effect are those of Biocarb, who produced 3.7 ML per year in 2006, although it should be noted that their plant has a production capacity of 8 ML per year. Production in 2007 dropped due to restructuring but it can be expected to rise again in Biodiesel Production in Switzerland, 9 RS 910.1, Loi Fédérale sur l agriculture (Lagr), 29 April Prior to the policy change, the price of oilseeds destined for human consumption was around CHF per tonne. 11 Another decision from the Federal Customs Administration determined that biodiesel returned to the cooperative members and used in their farming activities should not be eligible for the reimbursement of a portion of the oil tax that some activities are entitled to by law. The cooperative members responded by selling the biodiesel to fuel distributors, buying mineral diesel instead, and continuing to receive tax 10

20 At the same time, a federal Ordinance 12 created a new form of support for the processing of oilseeds (rapeseed, sunflower seed, and soybean). From 2002 onwards, a maximum of CHF 8.5 million would be allocated each year towards the processing of oilseeds used as renewable raw materials in pilot and demonstration plants recognized by the Agriculture Office, as well as for food. From 2004, oilseeds produced for seed and feed were also brought under this subsidy programme. The purpose of the subsidy was to close the price gap between domestic oilseeds and lower-priced imported oilseeds. This price differential mainly reflects the relatively high cost of producing oilseeds in Switzerland, as the import duty on seeds for technical uses is low. 2.2 Production and capacity Biodiesel and SVO Switzerland s first biodiesel plant began operation in 1996, the same year that biofuels from pilot and demonstration plants were made exempt from the mineral oil tax. The plant, Eco Energy Etoy, located in Etoy in the Canton of Vaud, produces methyl ester (a kind of biodiesel) from rapeseed oil, though at times it has also produced biodiesel from sunflower seed oil. It was built with a capacity to produce up to 3.35 ML of biodiesel per year (9 300 litres from 25 tonnes of seeds a day), equivalent to tonnes of rapeseed. However, for most of the past decade its annual production of biodiesel has varied between 1.4 ML and 3.0 ML (Table 2.1). The biodiesel produced in this plant conforms to the standard DIN The plant also produces a by-product, glycerine, which is exported to Germany for use in the chemical and pharmaceutical industries. Eco Energy Etoy is owned by a cooperative of nearly 980 farmers from the Romande region (the French-speaking part of Switzerland), which collectively grows over hectares of rapeseed for the plant s production. Additional rapeseed feedstock is purchased from the regions of Zurich and Thurgau, as well as from France. Initially, the farmer members of the Eco Energy Etoy cooperative delivered rapeseed to the plant in accordance with contracts issued to them for specific cultivated areas. In return they received biodiesel and meal (a source of protein in animal feeding) for their own use. In 1999, however, they started selling the biodiesel to intermediaries. reimbursements. Farmers (as well as public transport fleets) are exempted from paying the mineral oil tax on normal diesel and gasoline, which is why they have no incentive to use their own biofuels at costs higher than the corresponding tax-exempted fossil fuel. 12 Based on the provision of Article 56 and 59 of the Law on Agriculture relating to support to oilseeds production and transformation of renewable raw materials. RS , Ordinance on Contributions to Surface and Processing in Agricultural Land (OCCCh), 7 December (also see Chapter 4). 11

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